CA1 tagged posts

Snapshot of neuronal activity in a normal, healthy mouse (left) compared to a mouse genetically modified to mimic schizophrenia (right). Credit: Attila Losonczy/Columbia’s Zuckerman Institute

A team of Columbia scientists has found that disruptions to the brain’s center for spatial navigation—its internal GPS—result in some of the severe memory deficits seen in schizophrenia. The new study in mouse models of the disorder marks the first time that schizophrenia’s effects have been observed in the behavior of living animals—and at the level of individual brain cells—with such high-resolution, precision and clarity...

As control mice run along a track, the brain map of their environment isregularly updated through the neural circuitry in the hippocampus (left side of image). Without input from area CA3 in the hippocampus, the neural code that represents where the mutant mouse has come from (past coding) and is going (future coding) becomes disordered with only the current location remaining intact (right side of image). Credit: RIKEN

Neurons need well-waves of activity to organize memories across time. In the hippocampus, temporal ordering of the neural code is important for building a mental map of where you’ve been, where you are, and where you are going. RIKEN Brain Science Institute in Japan has pinpointed how the neurons that represent space in mice stay in time.

As a mouse navigates its environmen...